DNA Nanostructure Self-Assembly in an Aqueous Ionic Liquid Solution with Enhanced Stability and Target Binding Affinity | Journal of the American Chemical Society

Our work on using aqueous ionic liquids for DNA Nanostructure assembly with enhanced stability and target binding. Thanks to support from all the authors for making this happen! @XingWangGroup @arunrichardc @J_A_C_S @UofIllinois @BIOENGatIL

Our 2nd paper of the week is now live! Happy to be part of this work led by @DGandavadi in @XingWangGroup, with support from Hannah and @aarodg from our group. Check it out here: https://t.co/7LLD3SVVi2

Congratulations @DGandavadi Recent work from the @XingWangGroup showcasing the DNA nanostructure assembly in aqueous ionic liquid resulting in enhanced resistance to nuclease degradation! Read more about this exciting work at - https://t.co/NJcoaBp3VH

As a follow-up to our CLEAN tool, we developed EZSpecificity to predict enzyme substrate specificity from sequence ( https://t.co/WcDSYuZOEp) in collaboration with @diwakarshukla and his team. See news:

Spatial-DMT is now published in @Nature ! For the first time, we can simultaneously map DNA methylation and RNA transcription in tissue context. Great collab with @zhouwanding lab. Big congrats to Chin @Chin72155594 , Hongxiang @HongxiangFu and team!

Multiple faculty positions open in RNA science at UF Scripps (Asst/Assoc/Full Prof) in Jupiter, FL—part of a major investment in RNA research. Apply: https://t.co/mFL3eyzlI9 Center info: https://t.co/ZA0nXRpbuD Please retweet!

Targeted delivery of diverse biomolecules with engineered bacterial nanosyringes https://t.co/Nj4a7UtGGn

Great to see this is now out in @NatureNano! Thanks to @leonard_prins for this (yet another) collaborative project...kudos to @erica_delgrosso and Ben Roberts for combining experiment and theory in such a nice way. Thanks also to @EPenocchio for help with the theoretical part!

https://t.co/8FgoANxABv Photonic Crystal Grating Resonance and Interfaces for Health Diagnostic Technologies An added advantage of accessibility and convenience of these technologies stemming from integrating smartphone-based detection is succinctly captured. #havanasyndrome

In Science, researchers present a new method to safely and preferentially generate CAR T cells directly inside the body using targeted lipid nanoparticles that deliver mRNA directly to T cells. The approach showed rapid and sustained immune reprogramming in preclinical models,

engineering T cells within the body of the patient (rather than in a lab) is the next frontier for cancer immunotherapy

the main sources of flavonoids in the UK Biobank study

My new invited review in @ChemCommun discusses the strategies used for isothermal assembly of DNA nanostructures. Check it out! @RoySocChem @TheRNAInstitute @CNSE

A new @SciRobotics study highlights how an insect-inspired leg design and control strategy allows the @Harvard RoboBee to execute safe, controlled, and accurate landings as it flies between the leaves of a plant. https://t.co/a8eK8DYJ0E

A chemical toolbox for surface engineering of extracellular vesicles https://t.co/xTWDbaV5ua

The emerging era of structural nanomedicine https://t.co/ukUb1visHT

#ILLINOIS researchers developed drug-delivering DNA aptamers that target elusive leukemia stem cells and knock them out with a one-two punch.▶️ https://t.co/hZNJqTJ9IH

In a new Science study, researchers report compelling evidence for a gut-joint axis involving bile acid metabolism and GLP-1 signaling in osteoarthritis development, advancing the understanding of osteoarthritis pathogenesis and opening new avenues for therapy. 📄:

New online! Commensalism and pathogenesis of Candida albicans at the mucosal interface https://t.co/UZauiNNRHR